RU2718880C1 - Use of oxyethylated derivatives of cashew nutshells liquid as reagent-foaming agent for beneficiation of diamond-containing ores - Google Patents

Abstract

FIELD: enrichment of minerals.

SUBSTANCE: invention relates to enrichment of minerals, in particular, to flotation methods of dressing, and can be used in processing of diamond-containing ores. Use of oxyethylated cashew nutshell liquid derivatives with degree of oxyethylation from 1 to 100 as reagent-foaming agent for dressing of diamond-containing ores. Oxyethylated cashew nutshell liquid derivatives used are cardanol, natural cashew nutshell liquid, decarboxylated cashew nutshell liquid, anacardic acid, methyl carbodol, residol. Preferably, the degree of oxyethylation ranges from 30 to 50.

EFFECT: high efficiency of flotation processes when dressing diamond-bearing ores with substituted phenols.

8 cl, 1 dwg, 2 tbl

Description

The invention relates to the field of mineral processing, in particular to flotation concentration methods, and can be used in the processing of diamond ores.

It is known to use oxyethylated alkyl phenols with a length of hydrocarbon radical C2 and the number of hydroxyethyl groups in the radical 12-20 obtained on the basis of propylene trimers as a collector for flotation of sludge (Patent RU 2165797 C1 of 09/01/1999).

A known method of flotation concentration of diamond ore using the flotation reagent "Aeroflot-25", which is a derivative of dithiophosphoric acid obtained by treating cresol with five-sulfur phosphorus, having foaming properties and belonging to the Godin classification to the group of foaming agents-collectors, together with cresylic acid and as with kerosene, which plays the role of an auxiliary reagent as a foam stabilizer. (Bragina V.I. Technology of enrichment and processing of non-metallic minerals: textbook. Handbook Krasnoyarsk: IPK SFU, 2009).

A known method for the enrichment of diamond-containing raw materials (RF patent RU 2071836 C1, from 07.29.1993.), Which includes treating the pulp with reagents (Aeroflot-25 and fuel oil), supplying water and a foaming agent to the separator and foam separation in the presence of electrolysis gases, and the process is preliminarily applied electrochemically treated process water.

A known method of flotation concentration of diamond ores using an apolar collector based on fuel oil, a heteropolar collector and a foaming agent is used as an apolar collector based on fuel oil, the fuel oil fraction obtained in the process of direct distillation of oil at a temperature of 280 ° C and treated with a depressant additive in the ratio of 99.6 : 0.4, moreover, the MPK-3 multifunctional additive (patent RU 2333801 C2, dated June 19, 2006) is used as a depressant additive.

Closest to the proposed method is a method of flotation concentration of diamond-bearing ores, including pre-processing of the material with an apolar and heteropolar collectors and supplying an OPSB foaming agent, which is a mixture of monobutyl ethers of propylene glycol C ₄ H ₉ (OS ₃ H ₆ ) _n OH obtained by reacting propylene oxide with butyl alcohol in the presence of an alkaline catalyst, where F-5 marine fuel oil is used as the main reagent-collector (Melik-Gaykazyan V.I. et al. On the reality of hysteresis th and the capillary action of the reagents in the froth separation mechanisms -. The foam separation (issue 2)., M., 1976)

The disadvantages of the known methods are the insufficiently high efficiency of the extraction of diamonds in the concentrate, due, inter alia, to the use of ineffective blowing agents.

The main objective of the invention is to expand the raw material base of reagents - blowing agents for the flotation of diamond ores with high efficiency flotation processes in the enrichment of diamond ores with substituted phenols.

The technical result is to increase the efficiency of flotation processes during the enrichment of diamond ores with substituted phenols.

The problem is solved by the use in the flotation process of reagents, blowing agents (flotation reagents) obtained by hydroxyethylation of cashew nutshell liquids (hereinafter referred to as ZhSSK). In particular, the following products with an ethoxylation degree of 1 to 100 can be used as effective reagents for flotation: natural ZhSSO, decarboxylated ZhSSK, anacardic acid, cardanol, cardol, methylcardolol, and also residol, which is the bottom residue of the vacuum distillation of ZhSSK.

The inventive reagent blowing agent refers to substituted phenols. Structural formulas of the ethoxylated derivatives of cashew nutshell liquids: A - ethoxylated cardanol, B - ethoxylated cardol, C - ethoxylated anacardic acid, D - ethoxylated methylcardol:

The inventive blowing agents (flotation reagents) can also be identified by IR spectra. For example, the IR spectrum of ethoxylated cardanol (Figure 1) contains absorption bands (3474 cm ^-1 , 2882 cm ^-1 , 2695 cm ^-1 , 1584 cm ^-1 , 1468 cm ^-1 , 1412 cm ^-1 , 1360 cm ^-1 , 1344 cm ^-1 , 1279 cm ^-1 , 1234 cm ^-1 , 1148 cm ^-1 , 1115 cm ^-1 , 1061 cm ^-1 , 988 cm ^-1 , 947 cm ^-1 , 843 cm ^-1 , 781 cm ^-1 , 696 cm ^-1 , 530 cm ^-1 ). Cardanol (chemical formula-HO-C ₆ H ₄ -C ₁₅ H _31-2n , where n is the number of double bonds in the alkyl substituent) is obtained by extraction or heat treatment of cashew nuts (Anacardium occidentale) and is produced on an industrial scale mainly in the form of a mixture alkyl phenols with a saturated side chain (5.4 wt.%), an unsaturated side chain containing one double bond (48.5 wt.%), an unsaturated side chain containing two double bonds (16.8 wt.%), an unsaturated side chain, containing three double bonds (29.3 wt.%). Cardanol is a mixture of alkyl phenols, consisting predominantly of 3-pentadecylphenol, 3- (8 (Z) -pentadecenyl) phenol, 3- (8 (Z), 11 (Z) -pentadecadienyl) phenol and 3- (8 (Z), 11 (Z), 14-pentadecatrienyl) phenol.

Natural cashew nutshell liquid (hereinafter referred to as ZhSOK-N) is a liquid obtained by cold extraction or squeezing cashew nuts. ZhOSK-N contains 60-75% of anacardic acid (I), 15-25% of cardol (II) and 3-5% of cardanol (III) and 1-2% of 2-methylcardolol (IV).

Decarboxylated ZhSOK (hereinafter referred to as ZhSOK-D) is obtained by heat treatment of ZhSOK-N. During heat treatment, decarboxylation of anacardic acid occurs, resulting in cardanol. The remaining components of the ZhSOK-N are not changed.

The process of diamond flotation is based on the fact that pure diamonds are hydrophobic and, up to 1.65 mm in size, quickly float to the surface, while gangue minerals, provided that the surface is cleaned, are hydrophilic and remain in water.

The difference between the claimed invention and those known in science and technology is the use as a reagent-blowing agent of ethoxylated natural ZhSSK, decarboxylated ZhSSK, anacardic acid, cardanol, cardol, methylcardolol and residol with a degree of hydroxyethylation from 1 to 100.

The claimed invention is as follows.

The flotation method of enrichment of diamond ores using the inventive blowing agent reagents was tested in laboratory conditions, which are illustrated by the following specific examples. For all examples of a specific implementation, the same material was used - diamond ore.

Example 1 - (prototype).

Foam separation was carried out on an FMP-L laboratory flotation machine with a chamber volume of 0.3 l using diamond-containing ore containing diamonds of various sizes (within the fraction from 0.5 to 1.2 mm) in an amount of 20 pcs. F-5 marine fuel oil was used as a reagent-collector according to GOST 10585-75 (manufactured by LUKOIL-Permnefteorgsintez LLC, the characteristics are presented in Table 2), aeroflot (BTF grade A flotation reagent - 60 was used as an auxiliary reagent - foam stabilizer) % aqueous solution of the sodium salt of dibutyl dithiophosphoric acid produced on an industrial scale according to TU 6-00-04691277-201-97). As a blowing agent - OPSB, manufactured on an industrial scale according to TU 2452-011-53081079-2015.

Reagents were loaded into the pulp in the following quantities:

Fuel oil naval F-5 500 g / t ore Blowing agent 85 g / t ore Foam stabilizer Flotoreagent BTF 2 g / t ore

Example 2- (according to the invention)

The method of flotation concentration of diamond ores is also carried out as described in example 1, but the quality of the blowing agent is ethoxylated cardanol with the degree of hydroxyethylation 1 in quantities, as described in example 1.

Example 3- (according to the invention)

The method of flotation concentration of diamond ores is also carried out as described in example 1, but the quality of the blowing agent is ethoxylated cardanol with a degree of hydroxyethylation 5 in quantities, as described in example 1.

Example 4- (according to the invention)

The method of flotation concentration of diamond ores is also carried out as described in example 1, but the quality of the blowing agent is ethoxylated cardanol with a degree of hydroxyethylation of 10 in quantities, as described in example 1.

Example 5- (according to the invention)

The method of flotation concentration of diamond-containing ores is also carried out as described in example 1, but the quality of the blowing agent is ethoxylated cardanol with a degree of hydroxyethylation of 20 in quantities, as described in example 1.

Example 6- (according to the invention)

The method of flotation processing of diamond ores is also carried out as described in example 1, but the quality of the blowing agent is ethoxylated cardanol with a degree of hydroxyethylation of 30 in quantities, as described in example 1.

Example 7- (according to the invention)

The method of flotation dressing of diamond ores is also carried out as described in example 1, but the quality of the blowing agent is ethoxylated cardanol with a degree of hydroxyethylation of 40 in quantities, as described in example 1.

Example 8- (according to the invention)

The method of flotation concentration of diamond ores is also carried out as described in example 1, but the quality of the blowing agent is ethoxylated cardanol with a degree of hydroxyethylation of 50 in quantities, as described in example 1.

Example 9- (according to the invention)

The method of flotation dressing of diamond ores is also carried out as described in example 1, but the quality of the blowing agent is ethoxylated cardanol with a degree of hydroxyethylation of 75 in quantities, as described in example 1.

Example 10- (according to the invention)

The method of flotation dressing of diamond ores is also carried out as described in example 1, but the quality of the blowing agent is ethoxylated cardanol with a degree of hydroxyethylation of 100 in quantities, as described in example 1.

Example 11- (according to the invention)

The method of flotation dressing of diamond ores is also carried out as described in example 1, but as a blowing agent, use is made of ethoxylated natural LSS with a degree of hydroxyethylation of 40 in amounts, as described in example 1.

Example 12- (according to the invention)

The method of flotation concentration of diamond-containing ores is also carried out as described in example 1, but as a blowing agent, ethoxylated decarboxylated HFCS with a degree of hydroxyethylation of 40 in amounts is used, as described in example 1.

Example 13- (according to the invention)

The method of flotation dressing of diamond ores is also carried out as described in example 1, but hydroxyethylated anacardic acid with a degree of hydroxyethylation of 40 in amounts is used as a blowing agent, as described in example 1.

Example 14- (according to the invention)

The method of flotation concentration of diamond ores is also carried out as described in example 1, but the quality of the blowing agent is an ethoxylated cardol with a degree of hydroxyethylation of 40 in amounts, as described in example 1.

Example 15- (according to the invention)

The method of flotation concentration of diamond-containing ores is also carried out as described in example 1, but the quality of the blowing agent is ethoxylated methyl cardolol with a degree of hydroxyethylation of 40 in amounts, as described in example 1.

Example 16- (according to the invention)

The method of flotation processing of diamond-containing ores is also carried out as described in example 1, but the quality of the blowing agent is ethoxylated residol with an degree of hydroxyethylation of 40 in quantities, as described in example 1.

The results of flotation processing of diamond ores in examples 1-16 are shown in table 1.

From the presented data it is seen that the use of the inventive reagent blowing agent increases the efficiency of flotation. All of the presented blowing agents can be used in the process of flotation processing of diamond ores, moreover, reagents based on ethoxylated cardanol, cardol and methyl cardolol are more preferable, while the most preferred reagents are based on ethoxylated cardanol with a degree of ethoxylation of 30-75.

Table 1

The results of flotation processing of diamond ores according to specific examples

room
an example The amount of diamonds recovered The recovery ratio,% 1 12/20 60 2 13/20 65 3 14/20 70 4 15/20 75 5 18/20 90 6 19/20 95 7 20/20 one hundred 8 19/20 95 nine 19/20 95 10 18/20 90 eleven 15/20 75 12 17/20 85 13 15/20 75 fourteen 18/20 90 fifteen 18/20 90 16 14/20 70

table 2

Quality indicators of naval fuel oil F-5

Name of indicator Norm according to GOST 10585-75 1. Kinematic viscosity at 50 ° C, cSt No more than 36,2 2. The flash point in a closed crucible, ° C Not lower than +80 3. The pour point, ° C Not higher - 5 4. Density at 20 ° С, g / cm3 No more than 955

Claims (8)

1. The use of hydroxyethylated derivatives of cashew nutshell liquids with a degree of hydroxyethylation from 1 to 100 as a blowing agent for the dressing of diamond ores. 2. The use according to claim 1, characterized in that cardanol is used as the ethoxylated derivatives of the liquid shell cashew nuts. 3. The use according to claim 1, characterized in that as the ethoxylated derivatives of cashew nutshell liquids, a natural cashew nutshell liquid is used. 4. The use according to claim 1, characterized in that decarboxylated cashew nutshell liquid is used as the ethoxylated derivatives of cashew nutshell liquids. 5. The use according to claim 1, characterized in that cashew nuts are used in the quality of the ethoxylated derivatives of the liquid shells of cashew nuts. 6. The use according to claim 1, characterized in that methyl carboxol is used as the ethoxylated derivatives of the liquid shell cashew nuts. 7. The use according to claim 1, characterized in that residol is used as the ethoxylated derivatives of the liquid shell cashew nuts. 8. The use according to claim 1, characterized in that the degree of hydroxyethylation is preferably from 30 to 50.

Images